Maritime Tsunami Hazard Assessment in California Patrick Lynett, University of Southern California Jose Borrero, eCoast and University of Southern California Rick Wilson, California Geological Survey Martin Eskijian, California State Lands Commission Kevin Miller, California Governor's Office of Emergency Services
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Maritime Tsunami Hazard Assessment in CaliforniaMaritime Tsunami Hazard Assessment in California Patrick Lynett, University of Southern California Jose Borrero, eCoast and University
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Maritime Tsunami Hazard Assessment in California Patrick Lynett, University of
Southern California
Jose Borrero, eCoast and
University of Southern California
Rick Wilson, California
Geological Survey Martin Eskijian, California State
Lands Commission Kevin Miller,
California Governor's Office
of Emergency Services
Maritime Tsunami Hazard Assessment in California
Tsunami Current Hazard Assessment Approach and Products
Focus on the currents generated by a range of different tsunami sources (scenario-based)
Develop “playbooks” for guidance on tsunami effects in harbors
• Maritime Modeling Status:
• Performed 10-m MOST simulations at ~35 port/harbor/marina areas • 5-6 Source scenarios for each location • Includes 2010 and 2011 events for all harbors • This hindcast allows us to match the modeled velocity at the exact (to within a grid
point) location of the observed damage • Extract the maximum simulated current at the damage location, assume that current
is the cause of the damage • -> Connect potential infrastructure damage to current • Expect that maps of “damage / hazard potential” for a given scenario are more
useful than maps of maximum current
Tsunami Current Hazard Maps: Map Generation
vs
• Can we filter this information, create areas where certain levels of damage might be expected?
• Need to develop current– damage relationships
• Based on previous observations of damage, and numerical hindcast & direct speed measurements at the damage location
Tsunami Current Hazard Maps Map Generation
Damage Index:
Damage Type:
0 no damage
1 small buoys moved
2 1-2 docks/small boats damaged, large buoys moved
3 Moderate dock/boat damage, mid-sized vessels off moorings
4 Major dock/boat damage, large vessels off moorings
5 Complete destruction
No observationof damage for currents < 2/3 knots
Minor / moderate damage
observed for currents
between 2/3 and 5/6 knots
Damage begins to transition to
major with currents > 5/6
knots
• Can we filter this information, create areas where certain levels of damage might be expected?
• Need to develop relationship between tsunami currents and damage
• Based on previous observations of damage, and numerical hindcast & direct speed measurements at the damage location
Tsunami Current Hazard Maps From Lynett and others (2013)
Major to complete
damage for currents
greater than 8/9 knots
Damage Index: Damage Type:
0 no damage
1 small buoys moved
2 1-2 docks/small boats damaged, large
buoys moved
3 Moderate dock/boat damage, mid-sized
vessels off moorings
4 Major dock/boat damage, large vessels off
moorings
5 Complete destruction
• Can we filter this information, create areas where certain levels of damage might be expected?
• Need to develop current– damage relationships
• Based on previous observations of damage, and numerical hindcast & direct speed measurements at the damage location
Tsunami Current Hazard Maps Map Generation
Damage Index:
Damage Type:
0 no damage
1 small buoys moved
2 1-2 docks/small boats damaged, large buoys moved
3 Moderate dock/boat damage, mid-sized vessels off moorings
4 Major dock/boat damage, large vessels off moorings
5 Complete destruction
POLB (Pier T), 2010
Mission Bay, 2011
Moss Landing,
2011
Santa Cruz, 2011
Half Moon Bay, 2011
Ventura Harbor, 2011
Tsunami Current Hazard Maps
Tsunami Current Hazard Maps
Tsunami Current Hazard Maps Map Generation
• Time-Threshold Map • Time-threshold = time interval between arrival of initial wave to a later time after
which current does not exceed a given value (threshold) • Allow for an estimation of how long event will last • Useful for showing maximum possible duration of damaging tsunami effects • A more difficult piece of information to convey
Japan 2011
Tsunami Current Hazard Maps – Example Playbook Page
• “Rule of thumb” for safety is 100 fathoms
• This is likely to be highly conservative in general
• Offshore safe zone should be controlled by expected offshore currents • What is a acceptable offshore
tsunami current?
• Zones will be harbor/boat specific and included in navigational charts
• Statewide Guidance for Advisory and Warning events
• Example application – Santa Cruz
• Run simulations for a range for different sources
• Create a maximum current map for each source
• Plot the (max current, depth) pairs for each source, as a scatter plot
• Determine current variability at all depths
• Set an acceptable current & depth threshold
1 fathom = 1.8 meters = 6 feet
Debris and sediment predictions
Scenario-Based Failure Probability
Scenario-Based Vulnerability Maps
• Tsunami-Current-based hazard maps Damage expectations Duration of “strong” currents Determination of a defensible
retreat depth Incorporated in “tsunami
playbooks” currently under development for many harbors statewide o Contact me if interested